CN205309046U - Buckle slotting machine - Google Patents

Abstract

The utility model provides a buckle slotting machine, includes frame, its characterized in that: buckle slotting machine is still including setting gradually feed arrangement, direction transmission device, material feeding unit and the punch device in the frame, feed arrangement contains the feeding storehouse, feeding storehouse upper portion is equipped with the discharge gate, direction transmission device contains the transmission path of slope setting and the arc guide plate of downwarping. The utility model discloses a motor vibration has realized the autoloading of buckle processing, has realized the directional feeding and the orderly transmission of slotting machine raw materials, and feeding in -process raw materials angle fixed has avoided the not raw materials loss to bringing of artifical pay -off orientation in addition, the mode that adopts link mechanism to drive the cutter of slope setting is cut, and raw materials all angles atress is more balanced, and the power that the cutting needs is littleer, and degree of automation and production efficiency are higher, practices thrift manpower and time cost.

Description

Clasp otch machine

Technical field

The utility model relates to clasp processing apparatus field, mainly refers to a kind of clasp otch machine.

Background technology

The processing of conventional oval clasp is the oval raw pieces (Figure 10) adopting and being provided with fracture, the both ends length of raw pieces fracture differs, place one by one by hand, raw pieces must be fixed an angle direction and be placed, side as shorter in end is first forward, then otch is interrupted one by one, clip longer side one, the end section of effect and it is processed into the bigger oval ring finished product (Figure 11) of breach, this processing process needs operating personnel to keep operation on otch machine limit always, there is potential safety hazard in manual raw pieces of placing, as otch machine may cut to finger, and the position possibility manually throwing in its otch is nonstandard, once direction is put there is mistake, otch can cut the side shorter in end, raw pieces will be wasted after such otch, the material needed, artificial and time cost is all bigger, the speed of which processing charging is slow, efficiency is low, cannot operate processing in batches, and it expends time in, inefficiency. another mechanical transfer mode directly arranges Vertical Channel by former bin bottom, raw material vertically drops, under acceleration of gravity effect, easily collide with passage arm between part, channel bottom is concentrated by power, being scattered between part and can not advance in order, this kind of transmission mode is not suitable for the clasp transmission making mouth machine.

Practical novel content

For solving the problems of the technologies described above, the utility model provides a kind of clasp automatic notch cutter, it is achieved that the accurately charging and interrupt otch in order of clasp.

The technical solution of the utility model: a kind of clasp otch machine, comprise frame, it is characterized in that: described clasp otch machine also comprises feed arrangement, guiding transmission device, feeding device and the punch device being successively set in frame, described feed arrangement comprises feeding warehouse, and described feeding warehouse top is provided with discharging opening; Described guiding transmission device comprises the transmission passage that is obliquely installed and bending arc-shaped guide plate downwards, and described guide plate is provided with guiding passage, the most low side of described guiding passage with transmit the most high-end of passage and be connected; Described the most high-end of guiding passage is connected with discharging opening; The middle part of described transmission passage has the first groove for material transport, is provided with hyaline layer above described first groove; Rising of described groove is provided with the first Photoelectric Detection head above top, and described hyaline layer is positioned at and is provided with the first breach below the first Photoelectric Detection head; The end of described groove is provided with binder block and material blocking block successively, and described binder block is located at material blocking block front; Described binder block top is connected with the first propulsion cylinder, and described material blocking block top is connected with the 2nd propulsion cylinder; The position of the corresponding binder block of described hyaline layer is provided with the 2nd breach.

Arc-shaped guide plate and the transmission passage being obliquely installed decrease weight acceleration and the inertia of raw material, slow down the speed that raw material glides. Can see that the raw material of the inside is transmitted the position of operation by this hyaline layer, also avoid raw material to drop in transmitting procedure outside the first groove. Multiple oval clasp raw material runs in the first groove of transmission passage, after first raw material runs through out the first notch end, 2nd raw material transport was passed through and is arrived gear below binder block and block below material block, 2nd propulsion cylinder offer power makes to block expects that block stretches into the 3rd breach and stops the 2nd raw material, and the first propulsion cylinder provides power to make binder block push down the 3rd raw material (namely pushing down the space in the middle part of oval clasp). Whether the first Photoelectric Detection head is by the first breach, it is possible to detect and have raw material to enter in the groove transmitting passage in the first groove.

Further, being also provided with the 2nd Photoelectric Detection head above first groove in described binder block front, the position of the corresponding 2nd Photoelectric Detection head of described hyaline layer is provided with the 3rd breach. Whether the 2nd Photoelectric Detection head detection has raw material to run to this position, and the rear step operation running to notch end for raw material is prepared.

Further, described guide plate is " Y " shape, and described guiding passage is located at the middle bottom of guide plate.

Further, described feed arrangement also comprises vibration motor, described vibration motor is connected with feeding warehouse, described feed bin comprises helical duct and discharging opening, described helical duct is located at feeding warehouse sidewall and is played top and is connected with feeding warehouse bottom surface, and the end of described helical duct is connected with the discharging opening of side wall upper part; Support bar is located at hopper overhead, and described support bar is provided with one and draws pin, described in draw pin and pass in the middle part of discharging opening and reach the most high-end of guiding passage, described in draw pin and be obliquely installed and be positioned at bracing frame side higher than discharging opening side. Clasp raw material in hopper is vibration feeding under vibration motor effect, bottom feeding warehouse, discharging opening is run to by helical duct, the fixing distance drawn between pin and helical duct end of support adjustment, when shorter side, the end of raw material is run towards discharging opening, under gravity, longer side, raw material end hangs is drawing on pin raw material; And another kind of angle in feeding process, when namely longer side, the end of raw material is run towards discharging opening, drop back into feed bin into drawing pin because the breach of raw material can not block in time; Therefore the raw material orientation angle exported through drawing pin guiding is fixed. When being sent to the raw material of discharging opening through helical duct, being obliquely installed because drawing pin, namely the height of support side is higher than discharging opening side, and by drawing, pin slips down to discharging opening side from support side to raw pieces.

Further, the bottom surface of described feeding warehouse is that horizontal plane is better. Horizontal plane is beneficial to feeding warehouse vibrations and raw material is served helical duct.

Further, the sidewall of the upper end of described helical duct is provided with the blend stop parallel with described helical duct. Blend stop is arranged so that raw material can pass through from the space between this blend stop and helical duct one by one so that being transferred on helical duct overlapping in disorder multiple raw materials is blocked back in feed bin by this blend stop.

Further, a breeze way also it is provided with between the end of described helical duct and discharging opening, the upper surface of described breeze way and the lower surface soldered of end, the feeding warehouse sidewall above described breeze way is provided with gear sheet, the bottom of described gear sheet near discharging opening side lower than away from discharging opening side. Discharging channel position, lower than the upper gear sheet arranged of end and its, provided a buffering time before raw material is from helical duct to discharging opening, also for be about to enter this raw material of next process and other also the differentiation of the raw material on helical duct come.

Further, the sidewall on described breeze way top is provided with one and reaches the banking stop in the middle part of discharging opening, and described banking stop is provided with the protruding portion of protrusion downwards. The protruding portion of banking stop make to move out the raw material part of helical duct end can continue the motion of straight forward direction, avoids dropping to outside feeding warehouse.

Further, support frame as described above comprises a pole and platform, and described pole is located at feeding warehouse outside, and described platform is located at pole upper end and is stretched into above feeding warehouse, and described platform is provided with two clamping blocks, described in draw pin and be located between two clamping blocks; Described platform is provided with two first oval holes, and described two clamping blocks are fixed on the first oval hole. Clamping block can slide into certain position relative to oval hole as required and admittedly connect.

Further, described discharging opening two ends are arranged with guiding sheet, and the distance between described two guiding sheet ends is less than the width of discharging opening. Guiding sheet arranges and drops to outside feeding warehouse when avoiding raw pieces to move from metal wire, distance between end is less than otch width, adopt the setting that exit narrows gradually, arrange like this and strengthen the guide effect in the raw pieces drawing on pin, external force can be avoided to touch because of carelessness and to draw pin or at the workpiece drawing on pin so that the raw material on the helical duct of side wall upper part can accurately through entering the next process making mouth machine from two fins.

Further, described transmission device comprises straight line top-pushing mechanism and straight line Material moving device, described straight line top-pushing mechanism is vertical with straight line Material moving device to be arranged, described top-pushing mechanism comprises the 3rd cylinder, translation feeding table and propelling article, described propelling bar is located at above translation feeding table, and described propelling article one end connects the 3rd cylinder; Described Material moving device comprises moving expects platform, connecting rod and the 4th cylinder, and described shifting material platform has the 2nd groove for placing raw material, and described connecting rod is located at and is moved material platform bottom, and described connecting rod one end connects the 4th cylinder; Described propelling article and the 2nd groove are positioned at same level, and described 2nd recess width is greater than propelling article width. Achieving the process moving material and feeding, the premenstrual procedure of raw material is beaten after mouthful machine feeding track transports and is dropped on the groove of feeding table, and the 2nd cylinder is pulled by connecting rod and moves material platform so that moves material platform and moves to translation feeding table front; First cylinder promotes and advances bar, advances bar to stretch into groove, raw material is pushed to forward the station at next step operation place.

Further, the other end of described propelling bar is arc. Arcuate structure is close with oval clasp profile, increases the contact area advancing bar and clasp, is beneficial to raw material and advances.

Further, described translation feeding table is provided with a block, and described block is provided with the first through hole, and the other end of described propelling bar stretches out the first through hole. Propelling bar is strip structure, and propelling bar is played protection reinforcement effect by block.

Further, described propelling article is provided with the 2nd oval hole, described translation feeding table be provided with one stretch out the 2nd oval hole and with propelling article vertically disposed caging bolt. This setting defines the maximum distance moved forward and backward advancing bar.

Further, described punch device comprises platform for placing material, fixed head, the first motor, first connecting rod, second connecting rod and cutting knife, described fixed head tilts to be located at platform for placing material front and fixed head is provided with slide rail, described first connecting rod one end is connected with motor, top and the fixed head of the described first connecting rod other end are hinged, bottom and the second connecting rod of the other end are hinged, described second connecting rod and cutting knife upper articulation; Having the 3rd groove for placing raw material on described platform for placing material, described cutting knife tilts to be located at above the 3rd groove and cutting knife and slide block connect admittedly. By driven by motor connecting rod mechanism movement, further band movable slider slides relative to slide rail, and raw pieces is cut by cutting knife; Punching press vertical relative to tradition, namely raw material angle is subject to pressure vertically downward by power, and the power that needs are cut at angle of inclination is less, coordinate the 3rd groove to the restriction of raw material angle resistance so that the punching press power that raw material all angles are subject to is more balanced.

Further, described cutting knife angle of inclination is 45 °. Support tilts 45 ° of settings, and cutting knife is located on fixed head by slide rail, slide block.

Further, it is provided with dismountable gear sheet above described 3rd groove, it is possible to block whole groove top.

Further, described 3rd groove has waste outlet. After being convenient to the segment that raw material is cut away in punching press, this segment waste material drops downwards from waste outlet.

Further, described fixed head is positioned at groove anterior position and is provided with the 2nd through hole for discharging. Prop up and it is set up in groove dead ahead, the 2nd through hole is set, breaks the raw material after mouth and directly can be pushed to the 2nd through hole from the 3rd groove.

The beneficial effects of the utility model: adopt motor oscillating to achieve the automatic feeding of clasp processing, achieve directed charging and the order transfer of otch machine raw material, and raw material angle is fixed in fill process, avoid artificial feeding direction not to the material loss brought; And can process by double, adopt linkage to drive the mode of the cutting knife being obliquely installed to cut so that raw material all angles are more balanced by power, cut the power needed less, and automation degree and production efficiency are higher, save manpower and time cost. simultaneously

Accompanying drawing explanation

Fig. 1 is the side schematic view of clasp otch machine;

Fig. 2 is the schematic perspective view of clasp otch machine;

Fig. 3 is feed arrangement schematic diagram;

Fig. 4 is guiding transmission device schematic diagram;

Fig. 5 is a kind of view of feeding device;

Fig. 6 is another view of feeding device;

Fig. 7 is punch device schematic diagram;

Fig. 8 is punch device schematic perspective view;

Fig. 9 is the punch device schematic diagram of double;

Figure 10 is a kind of raw material workpiece schematic diagram;

Figure 11 is the finished product schematic diagram after the Raw material processing of Figure 10.

In figure, A feed arrangement, B guiding transmission device, C feeding device, D punch device, 1 transmission passage, 1a transmits the most high-end of passage, 2 guide plates, 3 guiding passages, 3a leads the most low side of passage, 4 first grooves, a top of 4a first groove, the end of 4b first groove, 5 hyaline layers, 6 first Photoelectric Detection heads, 7 first breach, 8 binder blocks, 9 first cylinders, 10 the 2nd breach, 11 material blocking blocks, 12 the 2nd cylinders, 13 the 2nd Photoelectric Detection heads, 14 the 3rd breach, 15 raw materials, 16 supports, 17 workbench, 18 frames, 19 feeding warehouses, 20 discharging openings, 21 vibration motors, 22 helical ducts, 23 bracing frames, 231 poles, 232 platforms, 233 clamping blocks, 234 first oval holes, 25 draw pin, 26 raw materials, 261 longer side, raw material ends, 262 shorter side, raw material ends, 27 fastening bolts, 28, banking stop, 281 projection portions, 29 guiding sheets, 30 blend stops, 31 breeze ways, 32 gear sheets, the width of L1 discharging opening, L2 two leads the distance of sheet end, 33 the 3rd cylinders, 34 the 4th cylinders, 35 translation feeding tables, 36 propelling bars, 37 move material platform, 38 connecting rods, 39 the 2nd grooves, 40 blocks, 41 first through holes, 42 the 2nd oval holes, 43 caging bolts, 44 cutting knifes, 45 platform for placing material, 46 fixed heads, 47 first motors, 48 first connecting rods, 49 second connecting rods, 50 slide rails, 51 the 3rd grooves, 52 slide blocks, 53 gear sheets, 54 the 2nd through holes, 55 baffle plates, 56 waste outlets, 57 balancing poles.

Specific embodiment party formula

Below in conjunction with accompanying drawing, the utility model is described further so that scheme is clearly understood.

As shown in Figure 1, Figure 2 and Figure 4, clasp otch machine comprise be successively set in frame 18 feed arrangement A, guiding transmission device B, feeding device C and punch device D, feed arrangement comprises feeding warehouse 19, described feeding warehouse top is provided with discharging opening 20, guiding transmission device comprises the transmission passage 1 of inclination, the most high-end 1a of transmission passage connects the guide plate 2 of an arc, arranges guiding passage 3 in guide plate, and the most low side 2a of guiding passage is connected with the most high-end 1a transmitting passage. The middle part of transmission passage 1 has the groove 4 for material transport, and groove top covers a hyaline layer 5 so that operating personnel can check the operation situation of inner raw material 15. First Photoelectric Detection 6 is located at above a top 4a of groove, and hyaline layer is positioned at and is provided with the first breach 7 below the first Photoelectric Detection head. The end 4b of groove is provided with material blocking block 12, and material blocking block top connects the 2nd cylinder 12, is provided with binder block 8 above the groove in material blocking block front, and the corresponding binder block position of hyaline layer is provided with the 2nd breach, and the top of binder block 8 is provided with the first cylinder 9. The groove in binder block front is also provided with the 2nd Photoelectric Detection 13, and the position of the corresponding 2nd Photoelectric Detection head of hyaline layer is provided with the 3rd breach 14.

The shape of guide plate is taking " Y " shape as best, and described guiding passage 3 is located at the middle bottom of " Y " shape. Whole transmission device is located on workbench 17 by support 16, and workbench is arranged in frame. The direction that in figure, arrow material blocking block, binder block straight line rise or decline.

Feed arrangement comprises vibration motor 21 and feeding warehouse 19, feeding warehouse sidewall is provided with helical duct 22, it is connected with feeding warehouse bottom surface bottom helical duct, helical duct end is connected with the discharging opening 20 being located at feeding warehouse sidewall, bracing frame is provided with one and draws pin 25, draw pin to pass in the middle part of discharging opening, draw pin and be obliquely installed and be positioned at bracing frame side higher than discharging opening side.

The feeding warehouse sidewall of the upper end of described helical duct is provided with a blend stop 30, and described blend stop is parallel with helical duct. A breeze way 31 also it is provided with between the end of helical duct 3 and discharging opening, the upper surface of breeze way and the lower surface soldered of end, feeding warehouse sidewall above described breeze way be provided with gear sheet 32, the bottom of described gear sheet near discharging opening side lower than away from discharging opening side. After shorter side 262, raw material end first runs to breeze way towards discharging opening side, longer side 261, raw material end hangs and is drawing on pin under gravity, if instead being that longer side 261, raw material end is first run towards discharging opening, then return to bottom feeding warehouse to dropping when drawing pin place.

Bracing frame 23 comprises pole 231 and is located at the platform 232 at pole top, and pole is located at feeding warehouse outside, and platform is located at feeding warehouse top near discharging opening position, is provided with two clamping blocks 233 below platform, draws pin 25 and is located between two clamping blocks. Two clamping blocks are provided with the fastening bolt 27 laterally running through two clamping blocks. Can also arranging two oval holes 234 on platform, described two clamping blocks are fixed on oval hole, relatively the position of adjustment clamping block be near or away from discharging opening.

The end of helical duct 22 is provided with one and reaches the banking stop 28 in the middle part of discharging opening, and described banking stop is provided with the protruding portion 281 of protrusion downwards.

The sidewall of feeding warehouse is positioned at discharging opening 20 two ends and is arranged with guiding sheet 29, and the distance L2 between described two guiding sheet ends is less than the width L1 of discharging opening. The degree of depth of discharging opening 24 is best lower than the height of hopper side wall.

As seen in figs. 5-6, transmission device comprises straight line top-pushing mechanism and straight line Material moving device, and both are vertically arranged. Being provided with above translation feeding table 35 and advance bar 36, described propelling article one end connects the 3rd cylinder 33; Moving and have the 2nd groove 39 for placing raw material on material platform 37, connecting rod 38 one end is connected with shifting material platform, and the connecting rod other end connects the 4th cylinder 34; Propelling article 36 and the 2nd groove 39 are positioned at same level, and described recess width is greater than propelling bar width, are convenient to advance an article advance to stretch into the 2nd groove.

The lower section that material platform 37 is arranged in the transmission passage of operation is moved under normality, as shown in Figure 2, by the 4th cylinder drivening rod, shifting being expected, platform moves to and advance article front, the 3rd cylinder drives and advances an article propelling so that the raw material moved in the 2nd groove of material platform 5 is pushed forward delivers to position shown in Fig. 3. Advance one end of advance of bar, it is namely arc near one end of groove. Being provided with a block near groove one end on translation feeding table, block is provided with the first through hole, advances the other end of bar to stretch out the first through hole. Advance and article be provided with the 2nd oval hole, described translation feeding table be provided with one stretch out the 2nd oval hole and with propelling article vertically disposed caging bolt. This setting can control to advance the length of bar. Oval hole is located on block propelling bar below, and namely block is close to groove, and oval hole is away from groove. In figure, arrow represents the propelling movement direction advanced or retreat.

Punch device comprises platform for placing material 45, fixed head 46, first motor 47, first connecting rod 51, second connecting rod 52 and cutting knife 44, described fixed head tilts to be located at platform for placing material 45 front and fixed head is provided with slide rail 50, first connecting rod 48, second connecting rod 49, described first connecting rod one end is connected with the first motor 47, the top of the described first connecting rod other end is connected with fixed head 46, the bottom of the other end of first connecting rod is connected with second connecting rod 49, and described second connecting rod 49 is connected with cutting knife 44 top. Having the 3rd groove 51 for placing raw material on platform for placing material 45, described cutting knife tilts to be located at above the 3rd groove and cutting knife and slide block 52 connect admittedly. The corresponding raw material 15 of the head of cutting knife. Fixed head is obliquely installed, and the angle of inclination of fixed head and cutting knife can be 0-60 °, it is preferable that 45 °. 3rd groove 51 has and above the 2nd through hole the 54, three groove 51, is provided with dismountable gear sheet 53, it is possible to block whole 3rd groove 51 top. Described fixed head is positioned at the 2nd through hole 54 that the 3rd groove anterior position is provided with discharging. Fixed head 46 can arrange baffle plate 55. Waste outlet does not show in fig. 8. As shown in Figure 9, two fixed heads of two cover punch devices can be connected by a balancing pole 57.

These are only preferred embodiment of the present utility model, the suitable distortion made according to mentality of designing of the present utility model for those skilled in the art and improvement, all should belong within protection domain of the present utility model.

Claims (10)

1. a clasp otch machine, comprise frame, it is characterized in that: described clasp otch machine also comprises feed arrangement, guiding transmission device, feeding device and the punch device being successively set in frame, and described feed arrangement comprises feeding warehouse, and described feeding warehouse top is provided with discharging opening; Described guiding transmission device comprises the transmission passage that is obliquely installed and bending arc-shaped guide plate downwards, and described guide plate is provided with guiding passage, the most low side of described guiding passage with transmit the most high-end of passage and be connected; Described the most high-end of guiding passage is connected with discharging opening; The middle part of described transmission passage has the first groove for material transport, is provided with hyaline layer above described first groove; Rising of described groove is provided with the first Photoelectric Detection head above top, and described hyaline layer is positioned at and is provided with the first breach below the first Photoelectric Detection head; The end of described groove is provided with binder block and material blocking block successively, and described binder block is located at material blocking block front; Described binder block top is connected with the first propulsion cylinder, and described material blocking block top is connected with the 2nd propulsion cylinder; The position of the corresponding binder block of described hyaline layer is provided with the 2nd breach.

2. clasp otch machine according to claim 1, it is characterised in that, also it is provided with the 2nd Photoelectric Detection head above first groove in described binder block front, the position of the corresponding 2nd Photoelectric Detection head of described hyaline layer is provided with the 3rd breach.

3. clasp otch machine according to claims 1 or 2, it is characterized in that, described feed arrangement also comprises vibration motor, described vibration motor is connected with feeding warehouse, described feeding warehouse comprises helical duct and discharging opening, described helical duct is located at feeding warehouse sidewall and is played top and is connected with feeding warehouse bottom surface, and the end of described helical duct is connected with the discharging opening of side wall upper part; Support bar is located at hopper overhead, and described support bar is provided with one and draws pin, described in draw pin and pass in the middle part of discharging opening and reach the most high-end of guiding passage, described in draw pin and be obliquely installed and be positioned at bracing frame side higher than discharging opening side.

4. clasp otch machine according to claim 3, it is characterized in that, a breeze way also it is provided with between the end of described helical duct and discharging opening, the upper surface of described breeze way and the lower surface soldered of end, feeding warehouse sidewall above described breeze way is provided with gear sheet, the bottom of described gear sheet near discharging opening side lower than away from discharging opening side.

5. clasp otch machine according to claim 4, it is characterised in that, the sidewall on described breeze way top is provided with one and reaches the banking stop in the middle part of discharging opening, and described banking stop is provided with the protruding portion of protrusion downwards.

6. clasp otch machine according to claim 3, it is characterised in that, support frame as described above comprises a pole and platform, described pole is located at feeding warehouse outside, described platform is located at pole upper end and is stretched into above feeding warehouse, and described platform is provided with two clamping blocks, described in draw pin and be located between two clamping blocks; Described platform is provided with two first oval holes, and described two clamping blocks are fixed on the first oval hole.

7. clasp otch machine according to claim 1, it is characterized in that, described transmission device comprises straight line top-pushing mechanism and straight line Material moving device, described straight line top-pushing mechanism is vertical with straight line Material moving device to be arranged, described top-pushing mechanism comprises the 3rd cylinder, translation feeding table and propelling article, described propelling bar is located at above translation feeding table, and described propelling article one end connects the 3rd cylinder; Described Material moving device comprises moving expects platform, connecting rod and the 4th cylinder, and described shifting material platform has the 2nd groove for placing raw material, and described connecting rod is located at and is moved material platform bottom, and described connecting rod one end connects the 4th cylinder; Described propelling article and the 2nd groove are positioned at same level, and described 2nd recess width is greater than propelling article width.

8. clasp otch machine according to claim 7, it is characterised in that, described translation feeding table is provided with a block, and described block is provided with the first through hole, and the other end of described propelling bar stretches out the first through hole.

9. clasp otch machine according to claim 1, it is characterized in that, described punch device comprises platform for placing material, fixed head, the first motor, first connecting rod, second connecting rod and cutting knife, described fixed head tilts to be located at platform for placing material front and fixed head is provided with slide rail, described first connecting rod one end is connected with motor, top and the fixed head of the described first connecting rod other end are hinged, and bottom and the second connecting rod of the other end are hinged, described second connecting rod and cutting knife upper articulation; Having the 3rd groove for placing raw material on described platform for placing material, described cutting knife tilts to be located at above the 3rd groove and cutting knife and slide block connect admittedly.

10. clasp otch machine according to claim 9, it is characterised in that, described cutting knife angle of inclination is 45 °.